Bettaieb, T., 2003. Régénération de vitrovariants de glaïeul (Gladiolus randiflorus Hort.) tolérant les basses temperatures. Ph.D. Institut National agronomique de Tunisie, p. 115.
Bowler C., and Fluhr R. The role of calcium and actived oxygen as signals for controlling cross tolerance. Trends Plants Sci. Rev. 5 (2000) 241-246
Bradford M.M. A rapid and sensitive method for the quantification of microgram quantities of protein utilizing the principle of protein-dye binding. Anal. Biochem. 72 (1976) 248-254
Clairbone A. Catalase activity. In: Greenwald R.A. (Ed). Handbook of Methods for Oxygen Radical Research (1985), CRC Press, Boca Raton 283-284
Dodet, B., 1991. La chasse aux radicaux libres oxygénés. Biofutur, May 23-34.
Feirabend J., Schaan C., and Hertwig B. Photoinactivation of catalase occurs under both high and low temperature stress conditions and accompanies photoinactivation of photosystem II. Plant Physiol. 100 (1992) 1554-1556
Foyer C.H., Le Landais M., and Kunert K.J. Photooxidative stress in plants. Physiol. Plant. 92 (1994) 696-717
Foyer C.H., and Noctor G. Redox homeostasis and antioxidant signalling: a metabolic interface between stress perception and physiological responses. Plant Cell 17 (2005) 1866-1875
James F.D., Inze D., and Van Brensegen F. Catalase deficient tobacco plants: tools for in plant studies on the role of hydrogen peroxide. Redox Rep. 6 (2001) 37-42
Laemmli U.K. Cleavage of structural proteins during the assembly of the head of bacetriophage T4. Nature 227 (1970) 680-685
Matsumura T., Tabayashi N., Kamagata Y., Souma C., and Saruyama H. Wheat catalase expressed in transgenic rice can improve tolerance against low temperatures stress. Physiol. Plant. 116 (2002) 317-327
Murashige T., and Skoog F. A revised medium for rapid growth and bioassays with tobacco cultures. Physiol. Plant. 15 (1962) 473-497
Noel, S., 2001. Rôle du peroxyde d'hydrogène au cours de la dormance du tubercule de pomme de terre (Solanum tuberosum L.). Mémoire de fin d'études d'Ingénieur Agronome. Faculté Universitaire des Sciences Agronomiques de Gembloux, Belgium, 71 p.
Puntarol S., Sanchez R.A., and Boveris A. Hydrogen peroxide metabolism in soybean embryonic axes at the onset of germination. Plant Physiol. 86 (1988) 626-630
Sairam K.R., Veerabhadra Rao K., and Srivastava G.C. Differential response of wheat genotypes to long term salinity stress in relation to oxidative stress, antioxidant activity and osmolyte concentration. Plant Sci. 163 (2002) 1037-1045
Scandalios J.G. The rise of ROS. Trends Biochem. Sci. 27 (2002) 483-486
Shikanai T., Takada T., Yamauchi H., Sano S., Tomizawa K., Yokota A., and Shigeoka S. Inhibition of ascorbate peroxides under oxidative stress in tobacco having bacterial catalase in chloroplasts. FEBS Lett. 428 (1998) 47-51
Vidalie H. Comportement de différents cultivars de glaïeuls précoces cultivés sous tunnel. Pép. Hort. Mar. 192 (1978) 13-18
Volk S., and Feirabend J. Photoinactivation of catalase at low temperature and its relevance to photosynthetic and peroxide metabolism in leaves. Plant Cell. Env. 12 (1989) 701-712
Wadsworth G.L., and Scandalios J.G. Molecular characterization of a catalase null allele at cat3 locus in maize. Genetics 125 (1990) 867-872
Warm E., and Laties G.G. Quantification of hydrogen peroxide in plant extracts by chimioluminescence reaction with luminol. Phytochemistry 21 (1982) 827-831
Willekens H., Langebartels C., Tiré C., Van montagu M., Inzé D., and Van Camp W. Differential expression of catalase genes in Nicotiana plumbaginifolia. Proc. Natl. Acad. Sci. U.S.A. 91 (1994) 10450-10454
Willekens H., Inzé D., Van Montagu M., and Van Camp W. Catalases in plants. Mol. Breed. 1 (1995) 207-228
Willekens H., Chamnogpol S., Davey M., Schravdner M., Langebartels C., Van Montagu C., Inzé D., and Van Camp W. Catalase is a sink for H2O2 and is indispensable for stress in C3 plants. EMBO J. 16 (1997) 4806-4816
